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The Role of Dual-Interfaces on Structural Reconstruction of Cobalt–Zinc–Indium Catalysts for CO<sub>2</sub> Hydrogenation

Junxin Guo, Jingxuan Zheng, Dapeng Meng, Anyu Zhang, Ling Zhou, Zhao Wang

2025ACS Catalysis9 citationsDOI

Abstract

Surface reconstruction of heterogeneous catalysts plays a critical role in determining their catalytic performance, yet controlling dynamic structural evolution remains challenging. Reconstructions are typically focused on alterations of the metal–support interactions. Herein, we reveal a dual–interface synergistic modulation strategy by introducing Co-ZnO x interfaces to stabilize Co-In 2 O 3– x active sites in cobalt–indium catalysts for CO 2 hydrogenation. Through in situ XRD, quasi-in situ XPS, and DFT simulations, it was demonstrated that this way protected the Co-In 2 O 3– x interfaces from structural transformations to Co 3 InC 0.75 and CoIn 2, and oxygen vacancies in the support regulated the uniform distribution of dual-interface, synergistically enhancing CO 2 activation and stabilizing the key intermediate HCOO*. At 280 °C, the optimized CoZnIn-P catalyst achieves a methanol space-time yield of 0.92 g methanol g catalyst –1 h –1, outperforming previously reported catalysts. This work provides a paradigm for designing multicomponent catalysts with controlled reconstruction dynamics, emphasizing the pivotal role of interface engineering in methanol synthesis.

Topics & Concepts

CatalysisMethanolIn situMaterials scienceYield (engineering)Chemical engineeringWork (physics)Surface reconstructionChemistryNanotechnologyHeterogeneous catalysisOxygenActive siteMolecular dynamicsMoleculeSurface engineeringDensity functional theoryReaction intermediateCombinatorial chemistryReactivity (psychology)Catalysts for Methane ReformingCatalytic Processes in Materials ScienceCO2 Reduction Techniques and Catalysts